Epithelial JAM-A is fundamental for intestinal wound repair in vivo
Shuling Fan, Kevin Boerner, Chithra K. Muraleedharan, Asma Nusrat, Miguel Quiros, Charles A. Parkos
Shuling Fan, Kevin Boerner, Chithra K. Muraleedharan, Asma Nusrat, Miguel Quiros, Charles A. Parkos
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Research Article Cell biology Gastroenterology

Epithelial JAM-A is fundamental for intestinal wound repair in vivo

Abstract

Junctional adhesion molecule-A (JAM-A) is expressed in several cell types, including epithelial and endothelial cells, as well as some leukocytes. In intestinal epithelial cells (IEC), JAM-A localizes to cell junctions and plays a role in regulating barrier function. In vitro studies with model cell lines have shown that JAM-A contributes to IEC migration; however, in vivo studies investigating the role of JAM-A in cell migration–dependent processes such as mucosal wound repair have not been performed. In this study, we developed an inducible intestinal epithelial–specific JAM-A–knockdown mouse model (Jam-aERΔIEC). While acute induction of IEC-specific loss of JAM-A did not result in spontaneous colitis, such mice had significantly impaired mucosal healing after chemically induced colitis and after biopsy colonic wounding. In vitro primary cultures of JAM-A–deficient IEC demonstrated impaired migration in wound healing assays. Mechanistic studies revealed that JAM-A stabilizes formation of protein signaling complexes containing Rap1A/Talin/β1 integrin at focal adhesions of migrating IECs. Loss of JAM-A in primary IEC led to decreased Rap1A activity and protein levels of Talin and β1 integrin, and it led to a reduction in focal adhesion structures. These findings suggest that epithelial JAM-A plays a critical role in controlling mucosal repair in vivo through dynamic regulation of focal adhesions.

Authors

Shuling Fan, Kevin Boerner, Chithra K. Muraleedharan, Asma Nusrat, Miguel Quiros, Charles A. Parkos

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Figure 6

JAM-A regulates Talin recruitment to focal adhesions during cell migration and wound repair.

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JAM-A regulates Talin recruitment to focal adhesions during cell migrati...
pIEC generated from Jam-afl/fl and Jam-aERΔIEC mice were treated with tamoxifen prior to induce acute loss of epithelial JAM-A in Jam-aERΔIECderived cells. (A) Spreading pIEC were imaged by confocal microscopy. Lamellipodia of migrating JAM-A–deficient cells (Jam-aERΔIEC) exhibited lower numbers and disrupted distribution of Talin+ focal adhesions when compared with Jam-afl/fl controls (inset). Scale bars: 50 μm. Results are representative of 3 independent experiments. (B) pIECs were subjected to a scratch wound and imaged by confocal microscopy 6 hours after injury. Imaging of cells generated from Jam-aERΔIEC mice in leading edges revealed fewer Talin+ focal adhesions compared with Jam-afl/fl controls (inset), with comparable numbers of Talin containing focal adhesions in “following” cells of JAM-A–deficient and JAM-A–expressing cells. Scale bars: 50 μm. Results are representative of 3 independent experiments. (C) Lysates from spread primary intestinal epithelial cells were incubated with RalGDS RBD beads to pull down Rap1A from Jam-aERΔIEC and Jam-afl/fl mice. (D) Lysates from spread primary IECs with JAM-A deficiency or floxed controls were immunoprecipitated with anti-Rap1A (left panel) or anti–β1 integrin (right panel) antibodies followed by immunoblotting with anti-talin, β1 integrin, and Rap1A antibodies to evaluate the presence of a functional protein complex containing Rap1A/talin/β1 integrin. IECs from Jam-aERΔIEC mice are less able to form a Rap1A/talin/β1 integrin complex compared with IEC from control Jam-afl/fl mice.